基于智能手机行为训练的人工神经网络可追踪癫痫中的癫痫样活动。

Artificial neural network trained on smartphone behavior can trace epileptiform activity in epilepsy.

作者信息

Duckrow Robert B, Ceolini Enea, Zaveri Hitten P, Brooks Cornell, Ghosh Arko

机构信息

Department of Neurology, Yale University, New Haven, CT, USA.

QuantActions GmbH, Lausanne, Switzerland.

出版信息

iScience. 2021 May 13;24(6):102538. doi: 10.1016/j.isci.2021.102538. eCollection 2021 Jun 25.

DOI:10.1016/j.isci.2021.102538

PMID:34308281

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8257969/

Abstract

A range of abnormal electrical activity patterns termed epileptiform discharges can occur in the brains of persons with epilepsy. These epileptiform discharges can be monitored and recorded with implanted devices that deliver therapeutic neurostimulation. These continuous recordings provide an opportunity to study the behavioral correlates of epileptiform discharges as the patients go about their daily lives. Here, we captured the smartphone touchscreen interactions in eight patients in conjunction with electrographic recordings (accumulating 35,714 h) and by using an artificial neural network model addressed if the behavior reflected the epileptiform discharges. The personalized model outputs based on smartphone behavioral inputs corresponded well with the observed electrographic data (R: 0.2-0.6, median 0.4). The realistic reconstructions of epileptiform activity based on smartphone use demonstrate how day-to-day digital behavior may be converted to personalized markers of disease activity in epilepsy.

摘要

一系列被称为癫痫样放电的异常电活动模式可能出现在癫痫患者的大脑中。这些癫痫样放电可以通过植入式设备进行监测和记录，该设备可提供治疗性神经刺激。这些连续记录为研究癫痫样放电与患者日常生活中的行为相关性提供了机会。在此，我们记录了8名患者的智能手机触摸屏交互情况，并结合脑电图记录（累计35714小时），通过使用人工神经网络模型来探讨行为是否反映了癫痫样放电。基于智能手机行为输入的个性化模型输出与观察到的脑电图数据吻合良好（R：0.2 - 0.6，中位数0.4）。基于智能手机使用情况对癫痫样活动进行的逼真重建表明，日常数字行为如何转化为癫痫疾病活动的个性化标志物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d90/8257969/3ccf730fe02c/fx1.jpg

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基于智能手机行为训练的人工神经网络可追踪癫痫中的癫痫样活动。

Artificial neural network trained on smartphone behavior can trace epileptiform activity in epilepsy.

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